Updating assets rendered in a virtual world environment based on detected user interactions in another world

ABSTRACT

A controller receives an identifier of a detected interaction by a user within another world, separate from a virtual world environment accessible by the user, from a device that detects and reports user interactions within the other world. The controller identifies at least one trigger tag name assigned to the identifier of the detected interaction from among separate detectable user interactions in a trigger tag database. The controller identifies at least one asset class from among asset classes specified with the trigger tag name within a particular trigger asset coupling in a trigger asset coupling database. The controller accesses at least one asset assigned to the at least one asset class in an asset class database. The controller renders the at least one asset within the virtual world environment in a virtual location within the virtual world triggered by the particular trigger asset coupling.

BACKGROUND

1. Technical Field

This invention relates in general to virtual environments, and moreparticularly to a method, system, and computer program for updatingassets rendered in a virtual world environment based on userinteractions in another world.

2. Description of the Related Art

A virtual world, also commonly referred to as 3D Internet or a virtualuniverse, is a computer-based simulated environment in which one or moreusers traverse and interact within the environment. In a virtual world,a user is typically provided with an avatar to represent the user withinthe virtual world, where the user and other users can see the avatar.Virtual worlds are often simulated in a two or three-dimensionalenvironment, including graphics, video, text, and other representations,which may, for example, resemble the real world, represent a fictitiousworld, or depict a gaming world. Users within a virtual world oftenconduct business and engage in social interactions based on therepresentations of each user's avatars at one or more locations within avirtual world.

In addition, some virtual world providers provide and render assetswithin a user's virtual world environment, such as providing a clothingasset used to define the clothing worn by a user's avatar representationwithin the virtual world environment, a digital media asset such asmusic played from the virtual world environment, or a decoration assetused to define the décor of a user's space within the virtual worldenvironment. For example, a virtual world called Second Life (SecondLife is a registered trademark of Linden Research Inc.) provided on theSecond Life platform supports rendering assets within a virtual worldenvironment in association with the user's virtual world account withSecond Life.

BRIEF SUMMARY

In view of users traversing virtual worlds and accessing assets,including holding meetings within a virtual world or traveling to avirtual world location simulating a real world location, one or moreembodiments of the invention provide a method, system, and computerprogram product for updating assets rendered in a virtual worldenvironment based on tracked user interactions, such as locations andevents, within another world, such as the real world or another virtualworld, where a user's interactions within another world triggerrendering of a counterpart asset in the virtual world.

In one embodiment, a method for populating assets in a particularvirtual world environment is directed to receiving, by a virtual worldcontroller, an identifier of a detected interaction by a user withinanother world, separate from a particular virtual world environmentaccessible by the user, from a device that detects and reports userinteractions within the another world, wherein the user is an individualuser. The method is directed to identifying, by the virtual worldcontroller, at least one particular trigger tag name assigned to theidentifier of the detected interaction from among a plurality ofseparate detectable user interactions in a trigger tag database. Themethod is directed to identifying, by the virtual world controller, atleast one particular asset class from among a plurality of asset classesspecified with the particular trigger tag name within a particulartrigger asset coupling from among at least one trigger asset coupling ina trigger asset coupling database. The method is directed to accessing,by the virtual world controller, at least one particular asset assignedto the at least one particular asset class in an asset class database.The method is directed to triggering, by the virtual world controller,payment for at least one fee associated with at least one of the atleast one particular trigger tag name, the at least one particular assetclass, and the at least one particular asset from among a plurality offees associated with at least one of a plurality of separate trigger tagnames, the plurality of asset classes, and a plurality of assetsplurality of in a fee database.

In another embodiment, a computer system for populating assets in aparticular virtual world environment comprises one or more processorsand one or more computer-readable tangible storage devices. The computersystem comprises program instructions, stored on at least one of the oneor more storage devices for execution by at least one of the one or moreprocessors, for receiving an identifier of a detected interaction by auser within another world, separate from a particular virtual worldenvironment accessible by the user, from a device that detects andreports user interactions within the another world, wherein the user isan individual user. The computer system comprises program instructions,stored on at least one of the one or more storage devices for executionby at least one of the one or more processors, for identifying at leastone particular trigger tag name assigned to the identifier of thedetected interaction from among a plurality of separate detectable userinteractions in a trigger tag database. The computer system comprisesprogram instructions, stored on at least one of the one or more storagedevices for execution by at least one of the one or more processors, foridentifying at least one particular asset class from among a pluralityof asset classes specified with the particular trigger tag name within aparticular trigger asset coupling from among at least one trigger assetcoupling in a trigger asset coupling database. The computer systemcomprises program instructions, stored on at least one of the one ormore storage devices for execution by at least one of the one or moreprocessors, for accessing at least one particular asset assigned to theat least one particular asset class in an asset class database. Thecomputer system comprises program instructions, stored on at least oneof the one or more storage devices for execution by at least one of theone or more processors, for triggering, by the virtual world controller,payment for at least one fee associated with at least one of the atleast one particular trigger tag name, the at least one particular assetclass, and the at least one particular asset from among a plurality offees associated with at least one of a plurality of separate trigger tagnames, the plurality of asset classes, and a plurality of assetsplurality of in a fee database.

In another embodiment, a computer program product for populating assetsin a particular virtual world environment comprises one or morecomputer-readable tangible storage devices. The computer program productcomprises program instructions, stored on at least one of the one ormore storage devices, to receive an identifier of a detected interactionby a user within another world, separate from a particular virtual worldenvironment accessible by the user, from a device that detects andreports user interactions within the another world, wherein the user isan individual user. The computer program product comprises programinstructions, stored on at least one of the one or more storage devices,to identify at least one particular trigger tag name assigned to theidentifier of the detected interaction from among a plurality ofseparate detectable user interactions in a trigger tag database. Thecomputer program product comprises program instructions, stored on atleast one of the one or more storage devices, to identify at least oneparticular asset class from among a plurality of asset classes specifiedwith the particular trigger tag name within a particular trigger assetcoupling from among at least one trigger asset coupling in a triggerasset coupling database. The computer program product comprises programinstructions, stored on at least one of the one or more storage devices,to access at least one particular asset assigned to the at least oneparticular asset class in an asset class database. The computer programproduct comprises program instructions, stored on at least one of theone or more storage devices, to trigger, by the virtual worldcontroller, payment for at least one fee associated with at least one ofthe at least one particular trigger tag name, the at least oneparticular asset class, and the at least one particular asset from amonga plurality of fees associated with at least one of a plurality ofseparate trigger tag names, the plurality of asset classes, and aplurality of assets plurality of in a fee database.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The novel features believed characteristic of one or more embodiments ofthe invention are set forth in the appended claims. The one or moreembodiments of the invention itself however, will best be understood byreference to the following detailed description of an illustrativeembodiment when read in conjunction with the accompanying drawings,wherein:

FIG. 1 is a block diagram depicting one embodiment of a virtual worldcontroller for updating assets rendered in a virtual world environmentbased on detected user interactions within another world, such as thereal world or another virtual world;

FIG. 2 is a block diagram illustrating one embodiment of a networkenvironment in which a virtual world controller is implemented;

FIG. 3 is a block diagram depicting an example of a computer system inwhich the present invention may be implemented;

FIG. 4 is a block diagram illustrating one example of detecting userinteractions in the real world which act as embedded trigger devices fora user interaction counterpart in a virtual world environment;

FIG. 5 is a block diagram depicting examples of parameters set withinthe databases providing location based parameters;

FIG. 6 is a high level logic flowchart illustrating a process andprogram for a setting asset classes;

FIG. 7 is a high level logic flowchart depicting a process and programfor setting trigger tags

FIG. 8 is a high level logic flowchart illustrating a process andprogram for setting trigger asset couplings;

FIG. 9 is a high level logic flowchart depicting a process and programfor setting trigger mappings; and

FIG. 10 is a high level logic flowchart illustrating a process andprogram for updating assets rendered in a virtual world environmentbased on tracked user interactions within another world.

DETAILED DESCRIPTION

Referring now to FIG. 1, a block diagram depicts one embodiment of avirtual world controller for updating assets rendered in a virtual worldenvironment based on detected user interactions within another world,such as the real world or another virtual world.

In the depicted example, a virtual world rendering engine 140 of virtualworld controller 100 represents the distributed engines, components,scripts, modules, and data for supporting one or more virtual worldsessions for accessing one or more virtual worlds provided by one ormore virtual world providers. A virtual world implements a simulatedcomputing based environment, which may include two and three dimensionalgraphics, text, audio, video, and other elements in which a userinteracts. A virtual world provider may be the provider of one or moreof the hardware, software, or network elements of a virtual world. Inparticular, a virtual world provider may provide proprietary hardware,software, or network elements for a virtual world or may provide opensource based hardware, software, or network elements for a virtualworld. In addition, a virtual world provider may manage a virtual worldplatform on which one or more virtual worlds run, where the virtualworlds that run on the virtual world platform may be interoperable withone another but not interoperable with any other virtual worlds run onany other virtual world platforms provided by any other virtual worldproviders.

In particular, virtual world rendering engine 140 specifies a virtualworld environment for a particular user, which virtual world renderingengine 140 pushes to virtual world interface controller 118. Virtualworld interface controller 118 manages output of the specified virtualworld environment within virtual world environment interface 116 andreturns user inputs within virtual world environment interface 116 tovirtual world rendering engine 140. In one example, virtual worldenvironment interface 116 is a graphical user interface.

Virtual world rendering engine 140 adjusts the assets rendered within avirtual world environment responsive to a user interacting withinvirtual world environment interface 116, responsive to other usersinteracting within the virtual world represented within virtual worldinterface 116, and responsive to the virtual world provider updating thevirtual world represented within virtual world interface 116. Inaddition, virtual world rendering engine 140 adjusts the assets renderedwithin a virtual world environment based on a user's interactions withanother world, such as the real world or another virtual worldenvironment. Those of ordinary skill in the art will appreciate thatvirtual world rendering engine 140 may also adjust the virtual worldenvironment pushed to virtual world interface controller 118 based onother types of inputs and changes.

In the example, virtual world rendering engine 140 receives instructionsfrom an asset location controller 132 for adjusting the rendering of thevirtual world environment displayed within virtual world environmentinterface 116 based on a user's interactions within another world. Assetlocation controller 132 interfaces with a central trigger handler 142for receiving indicators of user interactions within another world, asillustrated at reference numeral 146.

Detected user interactions within another world as illustrated atreference numeral 146 may include one or more types of informationincluding, but not limited to, global positioning system (GPS) locationcoordinates, triangulated cellular telephone position coordinates,information collected from radio frequency identification devices(RFIDs), virtual world environment location coordinates from anothervirtual world environment, identifiers for assets viewed in anothervirtual world environment, and other location and event basedinformation. In one example, RFIDs may be positioned throughout the realworld and supply location information, product information, and othertypes of information which identifies what type of user interaction auser has within the real world when the RFID is readable by a deviceassociated with the user in the real world. RFIDs and other placeddevices that provide information about user interaction within the realworld may be referred to as an embedded trigger device in the realworld. As will be further described with reference to FIG. 2, multipletypes of systems may report detected user interactions within anotherworld as illustrated at reference numeral 146 to central trigger handler142.

A user, which may reference one or more of an individual user, a virtualworld provider, or a third party entity, may set the parameters forspecifying the adjustments to be made to the rendering of assetsdirected by asset location controller 132 in response to detected userinteractions in another world. In the example, a setting interfacecontroller 114 manages output of a selectable interface within settinginterface 112 through which a user selects parameters for specifying theadjustments to the rendering of assets according to location basedtriggers and setting interface controller 114 manages storage inlocation storage parameters 120 of selections of parameters by the userwithin setting interface 112. In one example, setting interface 112 is agraphical user interface. Those of ordinary skill in the art willappreciate that a user may also set and store parameters within locationstorage parameters 120 through additional or alternate interfaces oflocation storage parameters 120 or of individual databases referred towithin location storage parameters 120. In addition, those of ordinaryskill in the art will appreciate that the databases described withinlocation storage parameters 120 may be stored in one or more types ofdata storage structures in one or more computing systems, such ascomputing system 300 described with reference to FIG. 3 and distributedacross a network of computing systems, as described with reference toFIG. 2.

In particular, in the example, location storage parameters 120 includean asset class database 122. Asset class database 122 includes adatabase of assets each assigned an asset class identifier that providesa description of the asset. A user may assign an asset class to an assetin asset class database 122 via setting interface 112 where the assetclass includes a descriptive name, a user identifier, a virtual worldidentifier, and other identification. In addition, a user may host anasset assigned to an asset class in asset class database 122, where thatasset is available to other users for rendering in other user virtualworld environments. Assets may include, but are not limited to,graphical objects, data objects, scripts, audio files, animations,electronic documents, video files, avatar parts, avatar clothing, avatartools, avatar gestures, calling cards, bookmarked locations,geographical information, note cards, photos, applications, textures,deleted items, and other items renderable or accessible within a virtualworld environment. Assets may be represented by an object descriptorfile in eXtensible Markup Language (XML). Assets may include executablesoftware code that is renderable in a virtual world environment andnonexecutable data that may be used by a virtual world rendering engine140 to render the assets. In addition, assets may include items sharedby multiple users within a virtual world and items placed withinlandscapes or other structures of a particular virtual worldenvironment.

Asset location controller 132 may direct virtual world rendering engineto render an instance of an asset assigned to a selected asset class. Inone example, each asset class within asset class database 122 may alsobe identified by the virtual world provider by a Universally UniqueIdentifier (UUID), where a UUID is a 16-byte number that may begenerated by a pseudorandom number generator. Each inventory item may beassigned a UUID that is tied to textual coordinates, graphic files, datafiles, audio files, scripts, and other data for each item. Assetlocation controller 132 may direct virtual world rendering engine 140 torender a new instance of an asset with the asset identified by UUID.

In the example, location storage parameters 120 also include a triggertag database 128. Trigger tag database 128 includes a database oftrigger tags each assigned to a specific user interaction, such as alocation or event, within at least one other world. In addition, triggertag database 128 records, with each trigger tag, a trigger event historyof the user ID's for user interactions that have matched the specificuser interaction associated with the trigger tag and other informationabout the trigger. In the example, a user may assign a trigger tag to auser interaction, such as a location or event identifier within anotherworld, within trigger tag database 128 through setting interface 112.For example, an individual user may assign a first trigger tag to afirst measurable radius around a first store location in the physical,real world and the user may assign a second trigger tag to a secondmeasurable radius around the first store location. In another example, avirtual world provider user may assign a first trigger tag to a locationwithin another virtual world environment, such as a virtual coffee shoplocation within another virtual world environment. In yet anotherexample, a third party entity user may assign a first trigger tag to anevent specified by a customer interaction with a particular product,such as a customer bringing a clothing item into a dressing roomlocation or a customer purchasing a clothing item at a registerlocation, where a first RFID detectable within a dressing room or at aregister identifies the customer location and a second RFID attached toa clothing item identifies the clothing item.

In addition, in the example, location storage parameters 120 include atrigger asset coupling database 130. Trigger asset coupling database 130includes a database of couplings each of one or more triggers associatedwith an asset class. In addition, a coupling may include an additionalcoupling rule which specifies additional conditions to be met for assetlocation controller 132 to direct virtual world rendering engine 140 torender a coupled asset within a virtual world environment. For example,a coupling rule may tie a trigger asset coupling to a coupling rule thatspecifies a particular period of time that a particular trigger assetcoupling is to be in effect. In particular, by coupling one or moretriggers to an asset class, a user effectively ties an asset's renderingwithin virtual world environment interface 116 to a user interactingwithin another world and encountering a triggering location or event inthe other world.

In the example, location storage parameters 120 also include a mappingdatabase 124. Mapping database 124 includes a database of trigger assetcouplings assigned to mapping rules for specifying where and how torender a coupled asset within a virtual world environment whentriggered. A mapping rule may specify a static location or may specify arule for determining a dynamic location within a virtual worldenvironment specific to the user. For example, a static mapping rule mayspecify “when trigger in a real store A window occurs in the real world,render the asset ‘current window display for store A’ within the virtualwindow display for the virtual counterpart of store A in the virtualworld environment.” In another example, a dynamic mapping rule mayspecify “when trigger in dressing room of real store A by a clothingitem occurs in the real world, render the clothing asset counterpartwithin the user's virtual home closet within the virtual worldenvironment.” In yet another example, a dynamic mapping rule may specifya mapping location within a virtual world environment, such as a “travellog space”, and also specify a mapping reference to the real world forpositioning assets within the “travel log space”, such as “when streetcorner trigger 34^(th) and 5^(th) avenue in New York City is detected,render a virtual store A at a location relative to the center of theuser's travel log space proportional to the offset of the corner fromNew York City's geographical center”. In yet a further example, througha mapping rule setting, a user may specify a particular advertisingregion within the user's virtual world environment for cumulativelyplacing all assets which are of an asset class of “advertisement” thatare triggered in trigger asset coupling database 130 based on a user'sinteractions within the real world and any other virtual worldenvironments visited throughout the day, such that a user may visit thisadvertising region at the end of the day and review the virtualadvertising counterpart of advertising for real world advertisements andother virtual world environment advertisements the user interacted withthroughout the day.

In addition, in the example, location storage parameters 120 alsoinclude a rendering options database 126. Rendering options database 126includes a database of rendering settings specified by a user forcontrolling asset location controller 132. In one example, renderingoptions database 126 may include settings for how and when detected userinteractions in another world that match one or more trigger tags intrigger tag database 128 are recorded and applied. For example, a usermay specify a rendering setting to trigger virtual world renderingengine 140 to trigger an alarm sound whenever a user's detectedinteractions in another world match the location or event specified in atrigger tag in trigger tag database 128 and offer the user the option toaccept rendering of the particular assets coupled to the matchingtrigger tags or to always or never accept new assets within the user'svirtual world environment based on the current location of the userwithin the real world. In addition, a user may specify a renderingsetting to trigger virtual world rendering engine 140 to automaticallyselect not to render particular types of assets or triggers based on atime of day or other factors. In another example, a business hosting anasset within asset class database 122 may specify a rendering setting inrendering options 126 for that asset in virtual world environments ofother users which limits the rendering of the asset in other user'svirtual world environments. For example, a third party entity hosting anasset may specify a rendering setting tying an asset's rendering to thefirst selection of individual users who physical visit a particularlocation starting at a particular time or tying an asset's rendering tonot rendering the asset in user virtual world environments of individualusers identified as exempted from receiving the asset based on keywordfiltering, time of day, or other factors.

In the example, location storage parameters 120 also include a feedatabase 136. Fee database 136 may include fees charged to a user,limits on a number of assets that can be rendered which require fees toprevent system overload, fees set by a user for charging for an asset,fees paid to a user for access to or a copy of an asset, or fees paid toa user by a third party entity for a user maintaining an RFID or otherreal world embedded trigger point. In the example, asset locationcontroller 132 may determine whether any fees are applicable for anasset to be rendered based on the settings in fee database 136 and feecontroller 134 controls the process of negotiating and transferring feesbetween individuals, the virtual world provider, and third partyentities, as applicable. In one example, in exchange for a userproviding an RFID for a particular location or event within the realworld, each time asset location controller 132 detects a userinteraction in the real world report the particular location or event,fee controller 134 controls micropayments of a fee by a third partyentity to the user, where the third party entity has assigned a triggerasset coupling in trigger asset coupling database 130 coupling thetrigger tag assigned to the particular location or event with an assethosted by the third party entity. In another example, a marketingbusiness user may establish trigger asset couplings for a client'smarketing assets and fee controller 134 will charge the client a fee onbehalf of the virtual world provider for each placement of the asset byasset location controller 132 on behalf of the virtual world providerwithin hosted virtual world environments and may adjust the fee based onthe hosted location within the hosted virtual world environments, thetime of day, the user virtual world environments in which the asset isplaced, and other factors.

Although not depicted, those of ordinary skill in the art willappreciate that a virtual world provider of a virtual world may providean interface through which a user may register for a virtual worldaccount and establish initial account information. A user may acquireassets in association with the virtual world account, wherein upon anauthenticated login by the user to the virtual world account from anyvirtual world client, the user enters into a virtual world environmentspecified for the user based on the settings in the user's account, withaccess to the assets.

In addition, in association with a user's account, a user may set one ormore of the parameters set in location storage parameters 120 to beidentified with the user's account. In addition, a user may subscribe toa group from the user's account, where location storage parameters 120include parameters applicable by a virtual world provider to all theusers in the group. Additionally, a user may set, in association withthe user's account, parameters within location storage parameters 120for the virtual world provider to apply to other user accounts hosted bythe virtual world provider. Further, a virtual world provider may setparameters within location storage parameters 120.

With reference now to FIG. 2, a block diagram illustrates one embodimentof a network environment in which a virtual world controller isimplemented. One of ordinary skill in the art will appreciate thatnetwork environment 200 is illustrative of one type of networkenvironment that may support clients, servers and other components of acommunication system. In addition, one of ordinary skill in the art willappreciate that the distribution of systems within network environment200 is illustrative of a distribution of systems, however, otherdistributions of systems within a network environment may beimplemented.

As illustrated, multiple systems within network environment 200 may becommunicatively connected via network 202, which is the medium used toprovide communications links between various devices and computersystems communicatively connected. Network 202 may include permanentconnections such as wire or fiber optics cables and temporaryconnections made through telephone connections and wireless transmissionconnections, for example, and may include routers, switches, gatewaysand other hardware to enable a communication channel between the systemsconnected via network 202. Network 202 may represent one or more ofpacket-switching based networks, telephony based networks, and localarea and wire area networks.

Network 202 and the systems communicatively connected within networkenvironment 200 via network 202 may implement one or more layers of oneor more types of network protocol stacks which may include one or moreof a physical layer, a link layer, a network layer, a transport layer, apresentation layer, and an application layer. For example, network 202may implement one or more of the Transmission Control Protocol/InternetProtocol (TCP/IP) protocol stack or an Open Systems Interconnection(OSI) protocol stack. In addition, for example, network 202 mayrepresent the worldwide collection of networks and gateways that use theTCP/IP suite of protocols to communicate with one another.

Network environment 200 may implement multiple types of networkarchitectures. In one example, network environment 200 may beimplemented using a client/server architecture, where computing systemsrequesting data or processes are referred to as clients and computingsystems processing data requests and processes are referred to asservers. In another example, network environment 200 may be implementedin a peer-to-peer network architecture. In yet another example, networkenvironment 200 may be implemented in a grid architecture. Those ofordinary skill in the art will appreciate that other types of networkarchitectures and combinations of network architectures may beimplemented.

In the embodiment, as illustrated, a client system 220 and a clientsystem 230 are communicatively connected via network 202 to one or moreof a server system 240, a server system 250, and a server system 260.Each of client system 220, client system 230, server system 240, serversystem 250, and server system 260 may represent one or more computersystems, such as computer system 300 of FIG. 3, to be described.

In the embodiment, client system 220 and client system 230 host virtualworld client 222 and virtual world client 232, respectively, where eachof virtual world client 222 and virtual world client 232 implement oneor more instances of one or more of setting interface 112 and virtualworld environment interface 116, and may also each implement one or moreinstances of one or more additional components of virtual worldcontroller 100. In implementing one or more instances of settinginterface 112 and virtual world environment interface 116, each ofvirtual world client 222 and virtual world client 232 providesinterfaces through which a user may set one or more location basedparameters and through which a user may interact with one or morevirtual world environments. In addition, each of virtual world client222 and virtual world client 232 may represent stand-alone software,browser plug-ins, scripts, or other data and a browser for interfacingwith one or more other systems.

Server system 240 and server system 250 host virtual world providersystem 242 and virtual world provider system 252, respectively, whereeach of virtual world provider system 242 and virtual world providersystem 252 implement one or more instances of virtual world renderingengine 140 and asset location controller 132, and may also eachimplement one or more instances of one or more additional components ofvirtual world controller 100. In one embodiment, one or more of virtualworld client 222 and virtual world client 232 may invoke virtual worldenvironment instances. For example, server system 240 hosts virtualworld provider system 242, which may host one or more instances of afirst virtual world provided by a first virtual world provider runningatop one or more types of virtual world grids or infrastructures, andserver system 250 hosts virtual world provider system 252, which mayhost one or more instances of a second virtual world provided by asecond virtual world provider running atop one or more types of virtualworld grids or infrastructures.

In one embodiment, server system 240 and server system 250 eachrepresent a networked environment of multiple server systems and each ofvirtual world provider system 242 and virtual world provider system 252operates program instructions of one or more virtual world controllers.A virtual world provider provides the computer instructions or a copy ofcomputer instructions to virtual world provider system 242 and virtualworld provider system 252. Virtual world provider system 242 and virtualworld provider system 252 each request memory allocations and otherhardware resources from server system 240 and server system 250,respectively, each time an instance of a virtual world controller isinvoked. By invoking and allocating hardware, virtual world providersystem 242 and virtual world provider system 252 each create virtualworld environment instances. In general, each virtual world environmentinstance includes control and management functions for controlling atleast one aspect of a virtual world for a particular user accountincluding, but not limited to, the geography or terrain of the virtualworld, scripts and objects.

One or more instances and embodiments of each of the databases oflocation storage parameters 120 may be distributed across virtual worldclient 222, virtual world client 232, virtual world provider system 242,and virtual world provider system 252. In one example, virtual worldprovider system 242 or virtual world provider system 252 may maintaininstances of one or more of the databases of location storage parameters120 for a fee.

As illustrated, server system 260 hosts central trigger handler 262,which represents one or more instances of central trigger handler 142which communicate with one or more of virtual world provider system 242and virtual world provider system 252. Each of virtual world client 222,virtual world client 232, virtual world provider system 242, and virtualworld provider system 252 may also implement an instance of centraltrigger handler 142.

Central trigger handler 262 and any other instances of central triggerhandler 142 implemented by other systems within network environment 200receive data indicating detected user interactions in another world. Inone example, virtual world provider system 242 may report, to centraltrigger handler 262 or other instances of central trigger handler 142,detected user interactions within a virtual world hosted by virtualworld provider system 242, such that virtual world provider system 250may then access the user interactions in another virtual world astriggers for rendering assets in the user's virtual world environmenthosted by virtual world provider system 250. In another example, one ormore of interaction communication device 210 and interactioncommunication device 212 may report, to central trigger handler 262 orother instances of central trigger handler 142, detected userinteractions within a real world. As will be further described withreference to FIG. 4, each of interaction communication device 210 andinteraction communication device 212 may actually detect userinteractions or may report user interactions detected by other devicesand reported to one or more of interaction communication devices 210 and212.

With reference now to FIG. 3, a block diagram illustrates an example ofa computer system in which the present invention may be implemented. Thepresent invention may be performed in a variety of systems andcombinations of systems, made up of functional components, such as thefunctional components described with reference to computer system 300and may be communicatively connected to a network, such as network 202.

Computer system 300 includes a bus 322 or other communication device forcommunicating information within computer system 300, and at least oneprocessing device such as processor 312, coupled to bus 322 forprocessing information. Bus 322 preferably includes low-latency andhigher latency paths that are connected by bridges and adapters andcontrolled within computer system 300 by multiple bus controllers. Whenimplemented as a server, computer system 300 may include multipleprocessors designed to improve network servicing power. Where multipleprocessors share bus 322, additional controllers (not depicted) formanaging bus access and locks may be implemented.

Processor 312 may be at least one general-purpose processor such asIBM's PowerPC (PowerPC is a registered trademark of InternationalBusiness Machines Corporation) processor that, during normal operation,processes data under the control of an operating system 360, applicationsoftware 370, middleware (not depicted), and other code accessible froma dynamic storage device such as random access memory (RAM) 314, astatic storage device such as Read Only Memory (ROM) 316, a data storagedevice, such as mass storage device 318, or other data storage medium.In one embodiment, the operations performed by processor 312 may controlthe operations of flowchart of FIGS. 6-10 and other operations describedherein. Operations performed by processor 312 may be requested byoperating system 360, application software 370, middleware or other codeor the steps of the present invention might be performed by specifichardware components that contain hardwired logic for performing thesteps, or by any combination of programmed computer components andcustom hardware components.

Those of ordinary skill in the art will appreciate that the presentinvention may be embodied as a system, method or computer programproduct. Accordingly, the present invention may take the form of anentirely hardware embodiment, an entirely software embodiment (includingfirmware, resident software, micro-code, etc) or an embodimentcontaining software and hardware aspects that may all generally bereferred to herein as “circuit,” “module,” or “system.” Furthermore, thepresent invention may take the form of a computer program productembodied on any tangible medium of expression having computer-usableprogram code embodied in the medium.

Any combination of one or more tangible computer usable or computerreadable medium(s) may be utilized. The computer-usable orcomputer-readable medium may be, for example but not limited to, anelectronic, magnetic, optical, electromagnetic, infrared, orsemiconductor system, apparatus, or storage device. More specificexamples (a non-exhaustive list) of the computer-readable medium wouldinclude the following: an electrical connection having one or morewires, a portable computer diskette, a hard disk, such as mass storagedevice 318, a random access memory (RAM), such as RAM 314, a read-onlymemory (ROM), an erasable programmable read-only memory (EPROM or Flashmemory), an optical fiber, a portable compact disc read-only memory(CDROM), an optical storage device, or a magnetic storage device. Notethat the computer-usable or computer-readable medium could even be paperor another suitable medium upon which the program is printed, as theprogram can be electronically captured, via, for instance, opticalscanning of the paper or other medium, then compiled, interpreted, orotherwise processed in a suitable manner, if necessary, and then storedin a computer memory. In the context of this document, a computer-usableor computer-readable medium refers to any data storage medium that cancontain, store, or provide the program for use by or in connection withthe instruction executing system, apparatus, or device.

Computer program code for carrying out operations of the presentinvention may be written in any combination of one or more programminglanguages, including an object oriented programming language such asJava, Smalltalk, C++ or the like and conventional procedural programminglanguages, such as the “C” programming language or similar programminglanguages. The program code may execute entirely on the user's computer,such as computer system 300, partly on the user's computer, as astand-alone software package, partly on the user's computer and partlyon a remote computer or entirely on the remote computer or server, suchas a server 340. In the latter scenario, the remote computer may beconnected to the user's computer through any type of network, such asnetwork 202, through a communication interface 332 over a network link334, that may be connected, for example, to network 202 including alocal area network (LAN) or a wide area network (WAN), or the connectionmay be made to an external computer (for example, through the Internetusing an Internet Service Provider). Although not depicted,communication interface 332 may include software, such as devicedrivers, hardware, such as adapters, and other controllers that enablecommunication. When implemented as a server, computer system 300 mayinclude multiple communication interfaces accessible via multipleperipheral component interconnect (PCI) bus bridges connected to aninput/output controller, for example. In this manner, computer system300 allows connections to multiple clients via multiple separate portsand each port may also support multiple connections to multiple clients.

The present invention is described below with reference to flowchartillustrations and/or block diagrams of methods, apparatus (systems) andcomputer program products according to embodiments of the invention.Those of ordinary skill in the art will appreciate that each block ofthe flowchart illustrations and/or block diagrams, and combinations ofblocks in the flowchart illustrations and/or block diagrams, can beimplemented by computer program instructions. These computer programinstructions may be provided to a processor of a general purposecomputer, special purpose computer, or other programmable dataprocessing apparatus to produce a machine, such that the instructions,which execute via the processor of the computer or other programmabledata processing apparatus, create means for implementing thefunctions/acts specified in the flowchart and/or block diagram block orblocks.

These computer program instructions may also be stored in acomputer-readable medium that can direct a computer, such as computersystem 300, or other programmable data processing apparatus to functionin a particular manner, such that the instructions stored in thecomputer-readable medium produce an article of manufacture includinginstruction means which implement the function/act specified in theflowchart and/or block diagram block or blocks.

The computer program instructions may also be loaded onto a computer,such as computer system 300, or other programmable data processingapparatus to cause a series of operational steps to be performed on thecomputer or other programmable apparatus to produce a computerimplemented process such that the instructions which execute on thecomputer or other programmable apparatus provide processes forimplementing the functions/acts specified in the flowchart and/or blockdiagram block or blocks.

Network link 334 and network 202 both use electrical, electromagnetic,or optical signals that carry digital data streams. The signals throughthe various networks and the signals on network link 334 and throughcommunication interface 332, which carry the digital data to and fromcomputer system 300, may be forms of carrier waves transporting theinformation.

In addition, computer system 300 may include multiple peripheralcomponents that facilitate input and output. These peripheral componentsare connected to multiple controllers, adapters, and expansion slots,such as input/output (I/O) interface 326, coupled to one of the multiplelevels of bus 322. For example, input device 324 may include, forexample, a microphone, a video capture device, an image scanning system,a keyboard, a mouse, or other input peripheral device, communicativelyenabled on bus 322 via I/O interface 326 controlling inputs. Inaddition, for example, a display device 320 communicatively enabled onbus 322 via I/O interface 326 for controlling outputs may include, forexample, one or more graphical display devices, audio speakers, andtactile detectable output interfaces, but may also include other outputinterfaces. In alternate embodiments of the present invention,additional or alternate input and output peripheral components may beadded.

Those of ordinary skill in the art will appreciate that the hardwaredepicted in FIG. 3 may vary. Furthermore, those of ordinary skill in theart will appreciate that the depicted example is not meant to implyarchitectural limitations with respect to the present invention.

With reference now to FIG. 4, a block diagram illustrates one example ofdetecting user interactions in the real world that act as embeddedtrigger devices for a user interaction counterpart in a virtual worldenvironment. In the example, a real world 400 represents a world inwhich a user physically interacts. Real world 400 may include multipleradio frequency identification devices (RFIDs) that passively reportinformation, such as RFID 402, and other embedded devices which activelyreport information, such as embedded device 404. Each of RFID 402 andembedded device 404 may report a location, an event that has occurredwhen read, and other information providing context for a user's currentinteraction within real world 400.

A wireless interaction device 406 includes an embedded device reader 408which may read information from RFID 402 or embedded device 404 whenwireless interaction device 406 is physically located within a proximityto RFID 402 or embedded device 404 within the detection area of embeddeddevice reader 408. In addition wireless interaction device 406 mayinclude a global positioning system (GPS) 410 that detects the currentlocation of wireless interaction device. Further, wireless interactiondevice 408 may include additional or alternative devices and componentsfor detecting information about a user's interaction within the realworld.

A storage device 420, such as flash memory coupled to wirelessinteraction device 406, records the user interactions detected bywireless interaction device as illustrated at reference numeral 422.Interaction communication device 430 reads recorded interactions 422from storage device 420 and communication the detected user interactionswithin real world 400 to virtual world controller 440. Virtual worldcontroller 440 identifies a trigger tag with a trigger definitionmatching the information in a detected user interaction, identifies anasset coupled to the trigger tag, maps the asset for rendering within aparticular location within virtual world environment 450, and rendersthe asset within virtual world environment 450 as triggered assetcounterpart 452.

In the example, as illustrated, the information on RFID 402 or embeddeddevice 404 or a location detected by GPS 410 act as embedded triggerswithin real world 400, for triggering rendering of counterpart assetswithin virtual world environment 450. By using embedded triggers in realworld 400 for triggering a counterpart asset to be rendered in virtualworld environment 450, virtual world environment 450 improves userexperience and interaction within the virtual world by placing itemswithin the virtual world that are familiar to the user in the realworld. In addition, by using embedded triggers in real world 400 fortriggering a counterpart asset to be rendered in virtual worldenvironment 450, virtual world asset creators can create assets totarget specific users and to provide an encounter within the virtualworld of the counterpart to a location or item already encountered inthe real world. A virtual world provider may charge third party entitiesa fee for placing these counterpart assets within a hosted virtual worldand for triggering the counterpart asset responsive to detected userinteractions within the real world. Further, by using embedded triggersin real world 400 for triggering a counterpart asset to be rendered invirtual world environment 450, virtual world environment 450 enables auser to identify an encounter between a virtual world resident and somereal world object or location, enables a user to identify other uses whoare familiar with the appearance and position of certain objects andlocations, enables a user to hold virtual world assets in reserve untila user who is familiar with the virtual world asset's appearance andposition is identified, and enables renders to accept virtual worldassets for rendering in their virtual world locations that will recreatethe appearance and experience a user had in a real world encounter withthe assets' counterparts.

In one example, a user's cellular telephone or portable communicationdevice incorporates wireless interaction device 406, storage device 420and interaction communication device 430. In another example, wirelessinteraction device 408 may only incorporate GPS 410 and storage device420, where the contents of storage device 420 can be later downloaded tointeraction communication device 430 which represents a computing systemwith a communicative connected to network 202. Those of ordinary skillin the art will appreciate that additional or alternate systemconfigurations of wireless interaction device 406, storage device 420,and interaction communication device 430 may be implemented.

With reference now to FIG. 5, a block diagram illustrates examples ofparameters set within the databases providing location based parameters.In the example, asset class database 122 as illustrated includesmultiple entries labeled with a UUID, as illustrated in column 540 withthe first 8 hexadecimal digits of a 32 hexadecimal digital format, withasset access information, as illustrated in column 542, and with anasset class name, as illustrated in column 544. In addition, in theexample, trigger tag database 128 as illustrated includes multipleentries labeled with a trigger tag name, as illustrated in column 502,and with a detectable user interaction, as illustrated in column 504. Inaddition, trigger asset coupling database 130 as illustrates includesmultiple entries labeled with a coupling identifier (ID), as illustratedin column 510, a trigger tag name, as illustrated in column 512, and anasset class, as illustrated in column 514. Further, mapping database 124includes multiple entries labeled with the coupling ID, as illustratedin column 522, and with a mapping rule, as illustrated in column 524.Additionally, rendering options database 126 includes multiple entrieslabeled with an asset class, as illustrated in column 530, and with arendering setting, as illustrated in column 532. Although not depicted,an example of parameters set within location based parameters 120 mayalso include fees set in fee database 136.

In one example, for a detectable user interaction matching “store Alocation coordinates” in column 504, a trigger tag name of “store A” isindexed into coupling ID “0001” in column 510, which triggers an assetclass of “store A building exterior” to be rendered within the virtualenvironment accessed by a user, responsive to the user's physicalinteraction in the real world with the location from which “store Alocation coordinates” can be detected by GPS 410. Asset locationcontroller 132 updates the information tracked for “store A buildingexterior” in column 542, such as by updating the number of times theasset class is updated in a particular time period. In addition,additional information such as the virtual world user identifier of auser accessing the asset and the time and date of the access may berecorded in column 542 for each asset class.

In another example, for a detectable user interaction matching “RFID forregister in store A” in column 504, a trigger tag name of “store A reg”is indexed into coupling ID “0003”, which triggers an asset class of“product A”. In addition, for a detectable user interaction matching“RFID for product A” in column 504, a trigger tag name of “product A” isindexed into coupling ID “0003”, which triggers an asset class of“product A”. Coupling ID “0003” is also indexed into a mapping rule of“display in user's closet” in column 524, which triggers rendering theasset class “product A” to be displayed “in user's closet” within thevirtual world accessed by a user. In the example, an instance of theasset “product A” may be rendered in the “user's closet” within thevirtual world, responsive to the user's physical interaction in the realworld with the location from which the RFIDs assigned to “RFID forregister store A” or “RFID for product A” can be passively detected byembedded device reader 408. Rendering of “product A” is limited by therendering settings assigned to “product A” in column 532 of “onlydisplay 1000 times each day” and “do not display to group A.” In theexample, asset location controller 132 would count the number of timesthe asset class “product A” has been accessed in a day and woulddetermine whether a user interacting with “product A” in the real world,referred to in “group A”, is associated with a third party entity hosingthe asset class “product A”, such that the asset class “product A” isrestricted to a particular number of accesses across multiple virtualworld environments hosted by a virtual world provider to multiple usersand is not provided to users in “group A” who may interact with theembedded trigger location for “product A” multiple times a day in thereal world in the normal course of activity. Asset location controller132 updates the information tracked for “product A” in column 542, suchas by updating the number of times the asset class is updated in aparticular time period. In addition, additional information such as thevirtual world user identifier of a user accessing the asset and the timeand date of the access may be recorded in column 542 for each assetclass.

In another example, for a detectable user interaction matching “RFID forstore A entry” in column 504, a trigger tag name of “store A window” isindexed into coupling ID “0002”, which triggers an asset class of “storeA window display”. Coupling ID “0002” is also indexed into a mappingrule of “display in user's billboard collection”, which triggers “storeA window display” to be displayed in “user's billboard collection”within the virtual world accessed by the user. In the example, aninstance of the asset “store A window display” is rendered in the“user's billboard collection” within the virtual world, responsive tothe user's physical interaction in the real world with the locationsfrom which the RFID assigned to “RFID for store A entry” can bepassively detected by embedded device reader 408. Asset locationcontroller 132 updates the information tracked for “store A windowdisplay” in column 542, such as by updating the number of times theasset class is updated in a particular time period. In addition,additional information such as the virtual world user identifier of auser accessing the asset and the time and date of the access may berecorded in column 542 for each asset class.

The examples in asset class database 122 in column 542 show the numberof accesses of each asset class within a particular time period. Byrecording the number of times an asset class is accessed within aparticular time period, a virtual world provider may track informationabout customer interaction with a particular business location and withthe products in that particular business location and provide thirdparty entities with information about customer interactions. In theexample, tracking that 500 users interact with the exterior of abuilding, 400 with a particular window display, and 30 with a particularproduct within the store provides information about customer flowoutside and inside the store. In addition, in the example, tracking thenumber of users interacting with “product A” allows virtual worldcontroller 100 to apply restrictions on access specified in renderingoptions database 126.

Referring now to FIG. 6, a high level logic flowchart illustrates aprocess and program for a setting asset classes. In the example, theprocess starts at block 602 and thereafter proceeds to block 604. Block604 illustrates displaying an interface with selectable options forassigning a separate asset class to an asset representing a displayableitem. Next, block 606 depicts a determination whether a user hasselected a particular asset class for a particular asset within theinterface. If the user does not select a particular asset class for aparticular asset, then the process ends. If the user does select aparticular asset class for a particular asset, then the process passesto block 608. Block 608 illustrates assigning the particular asset classto the particular asset, as specified by a UUID or other identifier, inan asset class database, and the process ends.

With reference now to FIG. 7, a high level logic flowchart depicts aprocess and program for setting trigger tags. In the example, theprocess starts at block 702 and thereafter proceeds to block 704. Block704 depicts displaying an interface with selectable options forassigning a trigger tag name to detectable user interaction. Next, block706 illustrates a determination whether a user selects a particulartrigger tag name for a detectable user interaction within the interface.If the user does not select a particular trigger tag name, then theprocess ends. If the user selects a particular trigger tag name, thenthe process passes to block 708. Block 708 depicts assigning theparticular trigger tag name to the detectable user interaction in atrigger tag database, and the process ends.

Referring now to FIG. 8, a high level logic flowchart illustrates aprocess and program for setting trigger asset couplings. In the example,the process starts at block 802 and thereafter proceeds to block 804.Block 804 depicts displaying an interface with selectable options forcoupling at least one trigger tag name with an asset class. Next, block806 illustrates a determination whether a user selects at least onetrigger tag name and an asset class and a coupling rule. If the userdoes not select a trigger tag name, asset class, and coupling rule, thenthe process ends. If the user selects a trigger tag name, an assetclass, and a coupling rule, then the process passes to block 808. Block808 depicts assigning a trigger asset coupling ID to the at least onetrigger tag name to the asset class with the coupling rule in a triggerasset coupling database.

With reference now to FIG. 9, a high level logic flowchart depicts aprocess and program for setting trigger mappings. In the example theprocess starts at block 902 and thereafter proceeds to block 904. Block904 depicts displaying an interface with selectable options for mappinga trigger asset coupling to a particular location within a virtualenvironment. Next, block 906 illustrates a determination whether a userselects a particular trigger asset coupling and a particular mappingrule. If a user does not select a trigger asset coupling and mappingrule, then the process ends. If a user selects a trigger asset couplingand a mapping rule, then the process passes to block 908. Block 908depicts assigning a rendering specification for the particular triggerasset coupling specified by the mapping rule in a mapping database, andthe process ends.

Referring now to FIG. 10, a high level logic flowchart illustrates aprocess and program for updating assets rendered in a virtual worldenvironment based on tracked user interactions within another world. Inthe example, the process starts at block 1002 and thereafter proceeds toblock 1004. Block 1004 illustrates a determination whether informationidentifying a user interaction in another world is detected. Ifinformation identifying a user interaction in another world is detected,then the process passes to block 1006. Block 1006 depicts adetermination whether user interaction information matches a detectableuser interaction location or event within the trigger tag database. Ifthere is a match in block 1006, then the process passes to block 1008.

Block 1008 illustrates identifying the particular tag name assigned tothe detectable user interaction matching the user interactioninformation. Next, block 1010 depicts a determination whether theparticular trigger tag name is assigned to a trigger asset coupling inthe coupling database. If the trigger tag name is assigned to a triggerasset coupling, then process passes to block 1012. Block 1012illustrates identifying the particular assets assigned to the assetclasses coupled with the trigger tag name and the particular couplingrule in at least one matching trigger asset coupling. Next, block 1014depicts a determination whether the particular coupling rule conditionsare satisfied to trigger display of the particular assets. If theconditions of the particular coupling rule are satisfied, then theprocess passes to block 1016.

Block 1016 depicts a determination whether the matching trigger assetcoupling is assigned to a mapping rule in the mapping database. If thematching trigger asset coupling is assigned to a mapping rule in themapping database, then the process passes to block 1018. Block 1018illustrates identifying the particular mapping rule assigned to thematching trigger asset coupling, and the process passes to block 1020.

Returning to block 1016, if the matching trigger asset coupling is notassigned to a mapping rule in the mapping database, then the processpasses to block 1020. Block 1020 illustrates accessing additionalrendering settings selected by the user. Next, block 1022 depicts adetermination whether the particular assets triggered are restricted forthe particular user by any applicable rendering settings. If theparticular assets are restricted for the particular user by anyapplicable rendering settings, then the process ends. If the particularassets are not restricted for the particular user, then the processpasses to block 1024. Block 1024 depicts triggering payment for any feesassociated with the particular trigger tag name, the matching triggerasset coupling, the particular assets, and the particular mapping rule.Thereafter, block 1026 illustrates rendering an instance of theparticular assets within the user virtual world environment applying anyparticular mapping rule and additional rendering settings. Next, block1028 depicts updating the particular asset entries in the asset classdatabase with the asset accesses for the particular user, and theprocess ends.

The flowchart and block diagrams in the Figures illustrate thearchitecture, functionality, and operation of possible implementationsof systems, methods and computer program products according to variousembodiments of the present invention. In this regard, each block in theflowchart or block diagrams may represent a module, segment, or portionof code, which comprises one or more executable instructions forimplementing the specified logical function(s). It should also be notedthat, in some alternative implementations, the functions noted in theblock may occur out of the order noted in the figures. For example, twoblocks shown in succession may, in fact, occur substantiallyconcurrently, or the blocks may sometimes occur in the reverse order,depending upon the functionality involved. It will also be noted thateach block of the block diagrams and/or flowchart illustration, andcombinations of blocks in the block diagrams and/or flowchartillustration, can be implemented by special purpose hardware-basedsystems that perform the specified functions or acts, or combinations ofspecial purpose hardware and computer instructions.

The terminology used herein is for the purpose of describing particularembodiments only and is not intended to be limiting of the invention. Asused herein, the singular forms “a”, “an” and “the” are intended toinclude the plural forms as well, unless the context clearly indicatesotherwise. It will be further understood that the terms “comprises”and/or “comprising”, when used in this specification specify thepresence of stated features, integers, steps, operations, elements,and/or components, but not preclude the presence or addition of one ormore other features, integers, steps, operations, elements, components,and/or groups thereof.

The corresponding structures, materials, acts, and equivalents of allmeans or step plus function elements in the claims below are intended toinclude any structure, material, or act for performing the function incombination with other claimed elements as specifically claimed. Thedescription of the one or more embodiments of the invention has beenpresented for purposes of illustration and description, but is notintended to be exhaustive or limited to the invention in the formdisclosed. Many modifications and variations will be apparent to thoseof ordinary skill in the art without departing from the scope and spiritof the invention. The embodiment was chosen and described in order tobest explain the principles of the invention and the practicalapplication, and to enable others of ordinary skill in the art tounderstand the invention for various embodiments with variousmodifications as are suited to the particular use contemplated.

While the invention has been particularly shown and described withreference to one or more embodiments, it will be understood by thoseskilled in the art that various changes in form and detail may be madetherein without departing from the spirit and scope of the invention.

1. A method for populating assets in a particular virtual worldenvironment, comprising: receiving, by a virtual world controller, anidentifier of a detected interaction by a user within another world,separate from a particular virtual world environment accessible by theuser, from a device that detects and reports user interactions withinthe another world, wherein the user is an individual user; identifying,by the virtual world controller, at least one particular trigger tagname assigned to the identifier of the detected interaction from among aplurality of separate detectable user interactions in a trigger tagdatabase; identifying, by the virtual world controller, at least oneparticular asset class from among a plurality of asset classes specifiedwith the particular trigger tag name within a particular trigger assetcoupling from among at least one trigger asset coupling in a triggerasset coupling database; accessing, by the virtual world controller, atleast one particular asset assigned to the at least one particular assetclass in an asset class database; and triggering, by the virtual worldcontroller, payment for at least one fee associated with at least one ofthe at least one particular trigger tag name, the at least oneparticular asset class, and the at least one particular asset from amonga plurality of fees associated with at least one of a plurality ofseparate trigger tag names, the plurality of asset classes, and aplurality of assets plurality of in a fee database.
 2. The method ofclaim 1, further comprising: rendering, by the virtual world controller,the at least one particular asset within the particular virtual worldenvironment in a particular virtual location within the particularvirtual world, wherein the particular virtual location is triggered bythe particular trigger asset coupling, such that the detectedinteraction of the user within another world acts as an embedded triggerdevice for triggering rendering of the at least one particular asset inthe particular virtual world environment.
 3. The method of claim 1,wherein triggering, by the virtual world controller, payment for atleast one fee associated with at least one of the at least oneparticular trigger tag name, the at least one particular asset class,and the at least one particular asset from among a plurality of feesassociated with at least one of a plurality of separate trigger tagnames, the plurality of asset classes, and a plurality of assetsplurality of in a fee database, further comprises: triggering, by thevirtual world controller, payment of the at least one fee by a thirdparty to a host provider of the particular virtual world environment inexchange for rendering, by the virtual world controller, the at leastone particular asset within the particular virtual world environment ina particular virtual location within the particular virtual world,wherein the particular virtual location is triggered by the particulartrigger asset coupling.
 4. The method of claim 1, wherein triggering, bythe virtual world controller, payment for at least one fee associatedwith at least one of the at least one particular trigger tag name, theat least one particular asset class, and the at least one particularasset from among a plurality of fees associated with at least one of aplurality of separate trigger tag names, the plurality of asset classes,and a plurality of assets plurality of in a fee database, furthercomprises: triggering, by the virtual world controller, payment of theat least one fee by a third party to the user of the particular virtualworld environment in exchange for rendering, by the virtual worldcontroller, the at least one particular asset within the particularvirtual world environment in a particular virtual location within theparticular virtual world, wherein the particular virtual location istriggered by the particular trigger asset coupling, wherein a feedatabase specifies the at least one fee as set by the user for renderingthe at least one particular asset in the particular virtual worldenvironment.
 5. The method of claim 1, wherein triggering, by thevirtual world controller, payment for at least one fee associated withat least one of the at least one particular trigger tag name, the atleast one particular asset class, and the at least one particular assetfrom among a plurality of fees associated with at least one of aplurality of separate trigger tag names, the plurality of asset classes,and a plurality of assets plurality of in a fee database, furthercomprises: detecting, in the identifier of the detected interaction bythe user within the another world, a physical location identifier readfrom a radio frequency identifier positioned at a particular physicallocation within the another world; and triggering, by the virtual worldcontroller, payment of the at least one fee by a third party to anentity maintaining the radio frequency identifier at the particularphysical location within the another world, wherein a fee databasespecifies the at least one fee for payment for the radio frequencyidentifier.
 6. The method of claim 1, wherein triggering, by the virtualworld controller, payment for at least one fee associated with at leastone of the at least one particular trigger tag name, the at least oneparticular asset class, and the at least one particular asset from amonga plurality of fees associated with at least one of a plurality ofseparate trigger tag names, the plurality of asset classes, and aplurality of assets plurality of in a fee database, further comprises:triggering, by the virtual world controller, payment of the at least onefee by a third party to an account for the user in exchange for theidentifier for the detected interaction in the another world matching atleast one of the at least one particular trigger tag name, the at leastone particular asset class, and the at least one particular assetaccording to at least one fee specified in a fee database in associationwith the third party for at least one of the at least one particulartrigger tag name, the at least one particular asset class, and the atleast one particular asset.
 7. The method of claim 1, whereintriggering, by the virtual world controller, payment for at least onefee associated with at least one of the at least one particular triggertag name, the at least one particular asset class, and the at least oneparticular asset from among a plurality of fees associated with at leastone of a plurality of separate trigger tag names, the plurality of assetclasses, and a plurality of assets plurality of in a fee database,further comprises: adjusting the at least one fee associated with atleast one of the at least one particular trigger tag name, the at leastone particular asset class, and the at least one particular asset fromamong a plurality of fees associated with at least one of a plurality ofseparate trigger tag names based on a particular virtual location withinthe particular virtual world that the at least one particular asset isrendered within and based on the time of day.
 8. A computer system forpopulating assets in a particular virtual world environment, saidcomputer system comprising: one or more processors; one or morecomputer-readable tangible storage devices; program instructions, storedon at least one of the one or more storage devices for execution by atleast one of the one or more processors, for receiving an identifier ofa detected interaction by a user within another world, separate from aparticular virtual world environment accessible by the user, from adevice that detects and reports user interactions within the anotherworld, wherein the user is an individual user; program instructions,stored on at least one of the one or more storage devices for executionby at least one of the one or more processors, for identifying at leastone particular trigger tag name assigned to the identifier of thedetected interaction from among a plurality of separate detectable userinteractions in a trigger tag database; program instructions, stored onat least one of the one or more storage devices for execution by atleast one of the one or more processors, for identifying at least oneparticular asset class from among a plurality of asset classes specifiedwith the particular trigger tag name within a particular trigger assetcoupling from among at least one trigger asset coupling in a triggerasset coupling database; program instructions, stored on at least one ofthe one or more storage devices for execution by at least one of the oneor more processors, for accessing at least one particular asset assignedto the at least one particular asset class in an asset class database;and program instructions, stored on at least one of the one or morestorage devices for execution by at least one of the one or moreprocessors, for triggering, by the virtual world controller, payment forat least one fee associated with at least one of the at least oneparticular trigger tag name, the at least one particular asset class,and the at least one particular asset from among a plurality of feesassociated with at least one of a plurality of separate trigger tagnames, the plurality of asset classes, and a plurality of assetsplurality of in a fee database.
 9. The computer system of claim 8,further comprising: program instructions, stored on at least one of theone or more storage devices for execution by at least one of the one ormore processors, for rendering, by the virtual world controller, the atleast one particular asset within the particular virtual worldenvironment in a particular virtual location within the particularvirtual world, wherein the particular virtual location is triggered bythe particular trigger asset coupling, such that the detectedinteraction of the user within another world acts as an embedded triggerdevice for triggering rendering of the at least one particular asset inthe particular virtual world environment.
 10. The computer system ofclaim 8, wherein the program instructions, stored on at least one of theone or more storage devices for execution by at least one of the one ormore processors, for triggering, by the virtual world controller,payment for at least one fee associated with at least one of the atleast one particular trigger tag name, the at least one particular assetclass, and the at least one particular asset from among a plurality offees associated with at least one of a plurality of separate trigger tagnames, the plurality of asset classes, and a plurality of assetsplurality of in a fee database, further comprises: program instructions,stored on at least one of the one or more storage devices for executionby at least one of the one or more processors, for triggering, by thevirtual world controller, payment of the at least one fee by a thirdparty to a host provider of the particular virtual world environment inexchange for rendering, by the virtual world controller, the at leastone particular asset within the particular virtual world environment ina particular virtual location within the particular virtual world,wherein the particular virtual location is triggered by the particulartrigger asset coupling.
 11. The computer system of claim 8, wherein theprogram instructions, stored on at least one of the one or more storagedevices for execution by at least one of the one or more processors, fortriggering, by the virtual world controller, payment for at least onefee associated with at least one of the at least one particular triggertag name, the at least one particular asset class, and the at least oneparticular asset from among a plurality of fees associated with at leastone of a plurality of separate trigger tag names, the plurality of assetclasses, and a plurality of assets plurality of in a fee database,further comprises: program instructions, stored on at least one of theone or more storage devices for execution by at least one of the one ormore processors, for triggering, by the virtual world controller,payment of the at least one fee by a third party to the user of theparticular virtual world environment in exchange for rendering, by thevirtual world controller, the at least one particular asset within theparticular virtual world environment in a particular virtual locationwithin the particular virtual world, wherein the particular virtuallocation is triggered by the particular trigger asset coupling, whereina fee database specifies the at least one fee as set by the user forrendering the at least one particular asset in the particular virtualworld environment.
 12. The computer system of claim 8, wherein theprogram instructions, stored on at least one of the one or more storagedevices for execution by at least one of the one or more processors, fortriggering, by the virtual world controller, payment for at least onefee associated with at least one of the at least one particular triggertag name, the at least one particular asset class, and the at least oneparticular asset from among a plurality of fees associated with at leastone of a plurality of separate trigger tag names, the plurality of assetclasses, and a plurality of assets plurality of in a fee database,further comprises: program instructions, stored on at least one of theone or more storage devices for execution by at least one of the one ormore processors, for detecting, in the identifier of the detectedinteraction by the user within the another world, a physical locationidentifier read from a radio frequency identifier positioned at aparticular physical location within the another world; and programinstructions, stored on at least one of the one or more storage devicesfor execution by at least one of the one or more processors, fortriggering, by the virtual world controller, payment of the at least onefee by a third party to an entity maintaining the radio frequencyidentifier at the particular physical location within the another world,wherein a fee database specifies the at least one fee for payment forthe radio frequency identifier.
 13. The computer system of claim 8,wherein the program instructions, stored on at least one of the one ormore storage devices for execution by at least one of the one or moreprocessors, for triggering, by the virtual world controller, payment forat least one fee associated with at least one of the at least oneparticular trigger tag name, the at least one particular asset class,and the at least one particular asset from among a plurality of feesassociated with at least one of a plurality of separate trigger tagnames, the plurality of asset classes, and a plurality of assetsplurality of in a fee database, further comprises: program instructions,stored on at least one of the one or more storage devices for executionby at least one of the one or more processors, for triggering, by thevirtual world controller, payment of the at least one fee by a thirdparty to an account for the user in exchange for the identifier for thedetected interaction in the another world matching at least one of theat least one particular trigger tag name, the at least one particularasset class, and the at least one particular asset according to at leastone fee specified in a fee database in association with the third partyfor at least one of the at least one particular trigger tag name, the atleast one particular asset class, and the at least one particular asset.14. The computer system of claim 8, wherein the program instructions,stored on at least one of the one or more storage devices for executionby at least one of the one or more processors, for triggering, by thevirtual world controller, payment for at least one fee associated withat least one of the at least one particular trigger tag name, the atleast one particular asset class, and the at least one particular assetfrom among a plurality of fees associated with at least one of aplurality of separate trigger tag names, the plurality of asset classes,and a plurality of assets plurality of in a fee database, furthercomprises: program instructions, stored on at least one of the one ormore storage devices for execution by at least one of the one or moreprocessors, for adjusting the at least one fee associated with at leastone of the at least one particular trigger tag name, the at least oneparticular asset class, and the at least one particular asset from amonga plurality of fees associated with at least one of a plurality ofseparate trigger tag names based on a particular virtual location withinthe particular virtual world that the at least one particular asset isrendered within and based on the time of day.
 15. A computer programproduct for populating assets in a particular virtual world environment,the computer program product comprising: one or more computer-readabletangible storage devices; program instructions, stored on at least oneof the one or more storage devices, to receive an identifier of adetected interaction by a user within another world, separate from aparticular virtual world environment accessible by the user, from adevice that detects and reports user interactions within the anotherworld, wherein the user is an individual user; program instructions,stored on at least one of the one or more storage devices, to identifyat least one particular trigger tag name assigned to the identifier ofthe detected interaction from among a plurality of separate detectableuser interactions in a trigger tag database; program instructions,stored on at least one of the one or more storage devices, to identifyat least one particular asset class from among a plurality of assetclasses specified with the particular trigger tag name within aparticular trigger asset coupling from among at least one trigger assetcoupling in a trigger asset coupling database; program instructions,stored on at least one of the one or more storage devices, to access atleast one particular asset assigned to the at least one particular assetclass in an asset class database; and program instructions, stored on atleast one of the one or more storage devices, to trigger, by the virtualworld controller, payment for at least one fee associated with at leastone of the at least one particular trigger tag name, the at least oneparticular asset class, and the at least one particular asset from amonga plurality of fees associated with at least one of a plurality ofseparate trigger tag names, the plurality of asset classes, and aplurality of assets plurality of in a fee database
 16. The computerprogram product according to claim 15, said computer program productfurther comprising: program instructions, stored on at least one of theone or more storage devices, to render, by the virtual world controller,the at least one particular asset within the particular virtual worldenvironment in a particular virtual location within the particularvirtual world, wherein the particular virtual location is triggered bythe particular trigger asset coupling, such that the detectedinteraction of the user within another world acts as an embedded triggerdevice for triggering rendering of the at least one particular asset inthe particular virtual world environment.
 17. The computer programproduct according to claim 15, said computer program product furthercomprising: program instructions, stored on at least one of the one ormore storage devices, to trigger, by the virtual world controller,payment of the at least one fee by a third party to a host provider ofthe particular virtual world environment in exchange for rendering, bythe virtual world controller, the at least one particular asset withinthe particular virtual world environment in a particular virtuallocation within the particular virtual world, wherein the particularvirtual location is triggered by the particular trigger asset coupling.18. The computer program product according to claim 15, said computerprogram product further comprising: program instructions, stored on atleast one of the one or more storage devices, to detect, in theidentifier of the detected interaction by the user within the anotherworld, a physical location identifier read from a radio frequencyidentifier positioned at a particular physical location within theanother world; and program instructions, stored on at least one of theone or more storage devices, to trigger, by the virtual worldcontroller, payment of the at least one fee by a third party to anentity maintaining the radio frequency identifier at the particularphysical location within the another world, wherein a fee databasespecifies the at least one fee for payment for the radio frequencyidentifier.
 19. The computer program product according to claim 15, saidcomputer program product further comprising: program instructions,stored on at least one of the one or more storage devices, to trigger,by the virtual world controller, payment of the at least one fee by athird party to an account for the user in exchange for the identifierfor the detected interaction in the another world matching at least oneof the at least one particular trigger tag name, the at least oneparticular asset class, and the at least one particular asset accordingto at least one fee specified in a fee database in association with thethird party for at least one of the at least one particular trigger tagname, the at least one particular asset class, and the at least oneparticular asset.
 20. The computer program product according to claim15, said computer program product further comprising: programinstructions, stored on at least one of the one or more storage devices,to adjust the at least one fee associated with at least one of the atleast one particular trigger tag name, the at least one particular assetclass, and the at least one particular asset from among a plurality offees associated with at least one of a plurality of separate trigger tagnames based on a particular virtual location within the particularvirtual world that the at least one particular asset is rendered withinand based on the time of day.